| 221 |
L-asparaginase-mediated pH shift and carbon dot fluorescence modulation: A sensitive ratiometric method for quantifying L-asparagine in diverse potato varieties under variable |
Department of chemistry |
2025 |
| 222 |
L-asparaginase-mediated pH shift and carbon dot fluorescence modulation: A sensitive ratiometric method for quantifying L-asparagine in diverse potato varieties under variable storage conditions |
Department of chemistry |
2025 |
| 223 |
Laser power-induced Fermi-level shift in graphene/Al2O3 under ambient atmosphere: Toward neutralizing unintentional graphene doping |
Department of physics |
2025 |
| 224 |
Layer‑by‑layer self‑assembled dip coating: an eco‑friendly approach toward multi‑functional durable textile finishing |
Department of chemistry |
2025 |
| 225 |
Lead-free perovskites for indoor photovoltaics |
Department of chemistry |
2025 |
| 226 |
Light-driven self-sterilizing cotton fabric and drug delivery: improvement of the antimicrobial activity of 4-sulfo-1,8-naphthalimide via its dendrimer and metallic dendrimer formation. |
Department of chemistry |
2025 |
| 227 |
Low-energy room-temperature carbon dots for targeted sensing of MET inhibitor capmatinib |
Department of chemistry |
2025 |
| 228 |
Management of Potato Root Rot - Disease Caused by Fusarium Species Using Some Eco-Friendly Controlling Agents. |
Botany and Microbiology Department |
2025 |
| 229 |
Mathematical, electrochemical, spectroscopic and microscopic monitoring of the adsorption effect of expired drugs on zinc corrosion in 3.5% NaCl solution |
Department of chemistry |
2025 |
| 230 |
Measurement of the W boson decay branching fraction ratio ℬ (W → cq)∕ ℬ (W → q q ̄ ′ ) in proton-proton collisions at √s = 13 TeV |
Department of physics |
2025 |
